Regulator



. K. H. HUBBARD El AL REGULATOR March 3-1, 1936.

5 Sheets-Sheet 1- Filed Nov. 4, 1933 INVENTOR arl H'- Hubbard Ralph E. Clarn'a'fge ATTORNEY March 31, 1936.

K. H. HUBBARD El AL REGULATOR Filed NOV. 4, 1933 5 Sheets-Sheet 2 {33 fNVENTOR JfarZHHubbarJ BY 5 ELlarnlage.

ATTORNEY M1111ch 1935- K. H. HUBBARD El AL REGULATOR Filed Nov. 4, 1935 5 Sheets-Sheet 5 muwhskg INVENTOR zfi z i a p 0/? 9 BY ATTORNEY March 31 1936.

K. H. HUBBARD El AL REGULATOR Filed Nov. 4, 1933 5 sheets sh t 4 ATTORNEY March31, 1936- K. H. HUBBARD ET AL REGULATOR FiledNov. 4. 1933 5 Sheets-Sheet; 5

T m. M [I ATTORNEY pa n ar. 31, 1936 necuna'ron Karl H. Hubbard'and Ralph E. Clarridge, Rochester, N. Y.,assignors to Taylor Instrument Companics, Rochester, N. Y'., a corporation of New York Application November 4, 1933, Serial No. 696,650 32 Claims. (01. lei-139) This invention relates to regulating systems. The usual expansible fluid-operated regulating system is of the single response type which can be adjusted for a given set of conditions and which will a uniform, controlled temperature until there is a change in conditions such as an increase or a decrease in the flow of the regulated 7 medium, a large increase or decrease in the temperature of this medium entering the regulating region, or a change in the regulating medium. In

response to such a changed condition, the con- .trolled temperature will change to a new value,

since for a definite temperature at the theme-- sensitive bulb of the regulator under uniform conditions with respect to the regulating medium, there is a definite opening of the regulating valve. Consequently, any change in load results in an increase or decrease of temperature at the thermo-sensitive bulb which is proportional to the sensitivity of a regulator is increased, a point i is reached beyond which instability is introduced in the regulation eifected, which instability causes the system to hlmt or oscillate about the predetermined temperature.

In the copending application of Karl E. Hubbard, Serial No. 494,179, filed November 'I, 1930,

- there is disclosed a so-called dual response regu later which overcomes the main disadvantages ofthe usuah single response regulating system,

by automatically compensating for load changes The present invention is an improvement over that disclosed in the mentioned pending application and its main feature resides in the provision of a. dual response regulating system which is simple to manufacture and assemble, which 7 is readily adjustable to satisfy various requirements encountered in service, and which will provide accurate reliable regulation under extreme adverse conditions.

In former systems of regulation it has been the practice to supply approximately the proper amount of air pressure required for eflecting the setting of the regulating valve to give the desired control, trusting that the valve would adjust itself to this-setting, but it through lack of proper operation of the parts, such as stuffing box friction,

' lack of proper flexibility of the rubber diaphragm motor valve actuated thereby.

of the motor valve, and the like, the valve failed to assume this setting, no means were provided to cause the valve to move to the proper point in spite of conditions tending to opp e such movement.

Another feature of the invention, therefore, relates to, the provision of means which will effect precision action of the regulating valve in a regulating system, even under adverse conditions.

A further feature of the invention relates to a dual response regulating system in which the movement for actuating the dual response imit is derived from the movement of the valve stem of the-motor-actuated valve.'

Another feature of the invention residis in a dual response regulating system including means to give precision operation of the motor valve thereof.

An additional feature of the invention relates to a hermetically sealed damping system for a.

dual response unit which system is completely liquid-filled or is filled with aliquid and a gas.

A further feature resides in the provision of means to indicate at a remote point any deviation from a predetermined controlled condition.

These and other features of the invention will berecognized'from the detailed description and appended claims'when taken with the drawings in which Fig. l is a perspective view of a dual response regulating unit mounted on a regulating valve; Fig. 2 is a side elevation of the dual re sponse regulating unit of Fig. 1 without the regulating valve; Fig. 2A is a sectional view taken on the line 20-20 of Fig. 2; Fig. 3 is a plan view of the unit of Fig. 2; and Figs. 4, 5, and 6 diagram-' 'matically represent in various stages of operation a dual response regulating system including a recording regulator, a dual response unit and a Referring especially to Fig. 1, 5 designates a well-known form of fluid-actuated motor valve including a valve disc 6 carried on the valve stem 1 which passes through a stufllng box la. It will be understood that the valve 5 directly or indirectly controls the flow of a heating or cooling agent to the medium, the temperature of which is to be controlled. A frame v8 on the valve is provided with an intermediate support 9 and at its top with an annular frame ID. This flange cooperates with a flange on the diaphragm top I l to grip the outer margin of a. rubber diaphragm l3 so that an air chamber l2 (Fig. 4) is formed between the top and the diaphragm. The valve stem I has connected thereto a valvestem extension l4 on the upper end of which there is ,fas-

tened the plate l5 in position to be engaged by the lower surface of the diaphragm l3. At a point below the platel5 on the upper end of the extension l4 there is secured an inverted cup It to engage the upper end of a helical spring I! which rests on the support 9 and which surrounds the valve extension l4 so that the valve stem tends to be moved to its uppermost position. It will be understood, however, thatthe valve structure just described is typical of one of many forms of fluid pressure actuated. valves which may be used in thecombination of the present invention.

- Duai response unit On the top of this fluid pressure actuated motor valve there is mounted a so-called dual response unit, the details of which are best shown in Figs. 2, 2A, and 3. This unit includes a base I 9 having legs l9 which are fastened to the top of the valve motor by suitable bolts suchas 29. The base is provided withan upright 2| on which a-main .lever 22 is pivoted.- at 23. Two pairs of relatively stifi lever springs 24 and 25 have their left ends fastened to an extension 22a on the main lever and their right ends attached to a movable block 26. This block carries a nozzle 2] and is adjustably mounted on a push rod 29. The push rod is partially enclosed within a fixed bracket 39 which projects downwardly from the base, while the lower end of this push rod is pivotally connected at 3| to a lever- 32, in turn, piv'-' otally mounted at 33 on' an extension 39a. 'of the bracket. The lever 32, as well as the extension 39a, are provided with a series 01' sets of openings therein, in any set of which the pivot 33 may be inserted to accommodate the unit to any particular motor valve size or design. The free end of the lever 32 engages a lug which is adjustably mounted on a movable part of the valve such as valve stem extension I4. As best shown in Fig. 2, the bracket 39 is provided with an arm 35 which has an aperture of sufllcient size to permit the push rod 29 to pass therethrough without contacting, which arm also cooperates with the cross pin 36 on the push rod to limit the downward movement thereof. A-coiled spring 31 at its i pper end engages the lower side of, the arm 35 while its lower end engages a shoulder on the ush rod in such amannerthat the spring tendr to force the push rod downwarduntil the cross pin 36 engages the arm 35. In the, arrangement of'the parts just described, the operation of the lever 32 and the push rod with its related parts, in response to any movement of the 'valve stem extension, causes the block 26 and the nozzle 21 mounted thereon tomove a corresponding distance.

The movement of the main lever 22 is'retarded by damping means incl ding an upper damping bellows 38 and the 1 wer damping bellows '39 tion of a damping assembly frame 43 and which have their opposingfaces respectively attached to the upper and lower edges of clamp 93 (Fig. i

This clamp is shaped to make sliding enthrough a conduit 49 having connected in series therewith the expansion bellows 99 and the flowing resisting ccJs 4| and 42. The bellows 99 has its lower end resting on bracket 43a of the assembly frame 43, while its upper end is engaged by spring 9.9a, the tension of which may be adjusted to maintain at all times a positive pressure in the damping system. This construction allows the thermal expansion or contraction of the filling medium to take place with only small variations in pressure in the system. It should be mentioned that the length of the fluid course in the damping system from the bellows 39 to the bellows 99 is equal to the length of the corresponding fluid course from bellows 38 to bellows 99. The damping bellows 38 and 39 with the related conduit 49, flow-resisting coils 4| and 42, and compensating bellows 99, constitute a hermetically sealed, damping system which is completely filled with a liquid such as chlorin the desired position by suitable clamping bolts.

45 (-Fig. 3). Itwill be understood that if the damping assembly frame 43 is located at ,the

position designated E on the main lever 22, the

time required for the liquid to be forced from one bellows to the other is greater than the time required for a similar forcing of liquid when the assembly is located at position A, since in the latter case the force applied to the bellows 38* or 39 would be less at position -E. ,In practice,

damping assemblies of different time ranges may be provided so that a damping assembly may be replaced on the damping assembly slide bar 44 by one having a different desired time range. 1

The main ,lever 22 has mounted thereon by means of posts 46, a bar 41 which mounting pertioned lever 'at its free end has pivotally mount- -ed thereon at 59 a baflie 5|. The lever 49 is supported on a fulcrum or pivot 52 which is adjustable along a fixed horizental bar 53 rigidly held on the uprights 54 carried by the base. It should be pointed out that the bar 53 led such length that fulcrum 52' can be moved to the left until it is directly beneath thepivot 59, or until it is at the left of pivot 59, so that the unit may be adjusted to operate as a single response or usual type of regulating device. In practice-the bar 53 is preferably marked with a suitable scale and indicia (A, B, C, D, and E) to indicate various settings of the adjustable pivot 52. The upright 54 on the base carries a bracket 55 on which there is mounted a frame 56 for a bellows or other capsular diaphragm ",element 51. The movable which have their remote faces attached to a porsurface of this bellows carries stud which is held in engagement with the under surface of the bafile 5| by means of a. coil spring 52 attached to the baflle and the bellows frame-58.

The base I9, of the unit also has supported thereon a relay air valve and the relay air valve.

bellows 69 for actuating it, while onthe front .of the base, as shown in Fig. 1 there is mounted an input air pressure gjge. 6|, an output air 1 pressure gauge 62 and an air supplypressure gauge 63.

It will be understood that the necessary'conduit connections for supplying air pressure or fiuid pressure to the various elements of the dual response unit and to the motor valve,

so a

- regulated. The free end of the Bourdon spring Recording regulator with sensitivity reducer Atthe right of Figs. 4, 5, and 6 there is indicated a recording regulator R. including the Bourdon actuating coil 65 connected by a capillaryv tube system 56 to a thermosensitive bulb 51 which is positioned so that it is responsive to the prevailing temperature of the medium to be is connected by a linkBB to a pen arm 69 which is pivotally supported on the fixed bracket 19., Thepen arm 69 is provided at one end with the pen or stylus H which inscribes a temperature curve on clock-actuated chart 99 illustrated in part only, while the other end of the pen arm is connected by a link 12 to the upperend oi the bathe-carrying lever 73 which is pivoted at 14 on a fixed bracket I5. The lever I3 has pivotally mounted thereon a baille 11 in operative relation to a rigidly supported nozzle 18 which is adjustable vertically on a fixed rod 'l'9. A spring 80 which is'adjustably fastened at 8| on a bracket 82 engages at its lower end the movable face of a rigidly supported bellows 83 said face having mounted thereon a synchronizing pin 84. 1 This bellows and its pin 84 together with the spring 89, which can be adjusted on bracket 82 to vary its length and thereby adjust its tension, constitutes a so-called sensitivity reducer, the function of which will be hereinafter set forth. In con.-

nectioirwith the recorder there'is provided a relay air valve 85, thevalve stem of which is actuated by the bellows 86. For convenience in ob-' serving and adjusting the operation of the regulator it is provided with a supply pressure gaug 92 and an output pressure-gauge 9|.

Operation of system in absence of load fluctuation Fig. 4'illustrates the regulating system in a balanced condition operating under a substantially uniform load or uniform quantity of temperature-regulated medium requiring a half-open condition ofvalve5. In this condition, spring medium to be regulated, is being maintained. As the. air pressure'in capsular diaphragm 5'! is This .results in J steady, ,baflle 5| is motionless. steady air pressure in capsular diaphragm 69 with a consequent throttling of. valve 59 which .permits the properflow of air to diaphragm chamber l2 of the motor valve, thereby main-- 'taining the correct opening ofv the valve disc 6 as long as the load remains constant.

Operation of system when load increases Fig. 5 indicates the operation of the system when an increase in load takes place, It must be understood, however, that to effect any change 'in the balanced condition of the regulator system as just described above, at least a small sensitivity it is moved upward.

As the capsular'diaphragm 51 contracts, th

temperature change at the bulb 61. must take place to start regulating action. For instance, in the system as illustrated, an increase in load effects a decrease in temperature at bulblil, causing the free end of the Bourdon spring 55 to move toward the right, thereby moving link 68 and pen arm 69 to a position as shown in full lines, to record the temperature drop. Pen arm 69, which is pivoted at lfl, moves the link 12 toward the left which movement rotates the baflle lever 13 counterclockwise about its pivot H.

the battle ll which is pivoted 'at 16 and which at its free end engages the synchronizing pin 84, moves toward the nozzle 18 so that the distance between the open end of the nozzle and the baflle is decreased, thereby causing an increase in pressure in bellows 86 which expands, tendingto close air relay valve 85 of the recording regulator. a drop in pressure in .conduit 89 leading to bellows 83 and to capsular diaphragm 51 permitting them to contract. As the bellows 83 contracts, it decreases the force on spring 89 so that the The operation of this valve causes synchronizing pin 84 moves to the right thereby I allowing the lower end of the baflle 17 to follow in the same direction. This movement of'the baflle Tl slightly increases the distance between itself and the nozzle 18 with the resultant decrease in pressure in bellows 86, which thereupon acts on valve 85 to-prevent a further decrease of pressure in conduit 89 leading to capsular diaphragm 51. It should be understood that the total movement at the nozzle 'IBof the baflie TI, and therefore the pressure change in conduit 89, is proportional to the temperature change at the bulb E1, the magnitude of this movement depending upon the sensitivity adjustment of the spring 89. For high sensitivity the adjustable clamp ill for spring 80 moved downward, while for low free end of the baflle 5! moves toward nozzle 21 decreasing the distance, therebetween. This movement causes an increase in pressure in-bellows 69 which expands, thereby tending to close air relay valve 59.

. of the spring I! on the valve stem extension. As

through block 26 to nozzle 21and to spring levers 24 and 25 so that in moving downward it bends the spring levers downward and carries with it the nozzle 21 until the clearance between this nozzle and the baflle 5| is suflicient to cause the air relay valve to give steady throttling control in a temporary position. .The pressure indicated on'gauges 6| and 9| at this time will be less than normal and gauge 62 will also indicate a lower pressure in diaphragm chamber I2 of the motor valve. The operations thus far described constitute the first response, and the resulting temperature due to the change in load or quantity of below that desired.

The following operations of the system inci dent to restoring the desired temperature in the This operation of the relay air valve causes adecrease of air pressure sup- 1 themedium to be regulated, will be temporarily I medium. are herein referred to as the second response". Since there is -a force applied to springs 24 and 25 due to the downward movement of the push rod 29, this force is applied through these springs to main lever 22 so' that the free end of this lever and the bar 41 carried thereby, tend to move downward about the fixed pivot 23. The fo'rce acting on main lever 22 which zle 21.

tinues to lower the free end of bar 22 which 'through the previously mentioned connections,

is positioned between the two completely filled bellows 38 and 39 causes the pressure in bellows 39 to increase and the pressure in bellows 38 to. decrease, forcing the liquid from bellows 39 through resistance coils 4| and 42 into the upper Since th end of lever 22 now gradually moves downward, it acts through pivot 48 to swing the transmitting lever 49 about its adjustable fulcrum 52. This swinging movement elevates the left end of lever 49 .and also the left end of baflle which is pivotally connected to it at 50. The free end of the baflie is gradually lowered toward nozzle 21 with the consequently gradually increasing pressure in bellows 60. In response to this gradual increase in pressure, the

bellows 69 slowly expands and actuates air valve '59 to permit the air pressure to escape slowly from the chamber l2 of the motor valve so that spring I1 continues to effect further slow upward travel of the valve stem extension l4 and the valve disc 6., Since the valve stem extension 14 thus moves upward, the push rod 29 continues to move downward,.thereby further moving the free ends of springs 24 and 25 downward and also continuing the downward movement of the noz- The tension on springs 24 and. 25 concontinues to lower the free end of the baille toward the nozzle 21. In response to this continued downward movement of the ba'iiie, the pressure gradually continues to increase further in the bellows 69 which actuates air relay valve 59, to permit the further escape of air from the chamber 12 of the motor valve, thereby permitting the spring l1 to effect a continued gradual upward movement of the .valve stem extension I14. This movement of the valve stem extension results in,

the lowering of the push rod 29 carrying with it the right ends of the springs 24 and 25, and also the nozzle 21. It will be understood that the primary response has a'magnitude, and that the second response is effected at a. rate, dependent on the deviationfrom the normal temperature.- Thus by a slow continuous movement followring the first response, the valve 5 continues to be opened until such a time as the bulb 61 of the regulator indicates that the proper amount of heat .has been introduced into the medium to restore the desired-temperature. Of course, 'the bulb-61 responds gradually during the periods of the first and second responses, and the expa'ng sion of the filling medium therein gradually moves vthe free end of the Bourdon spring 55 toward theleft, carrying with it the link 58 and the pen arm 99 which is connected to the link. This pen arm through the link 12 swings the 'lated equipment. described above is for the simplest kind of tem-' baffle lever-clockwise thereby moving the baflle 11 away from the nozzle 18. In response to this movement ofthe baflle, the pressure in the bellows86 is decreased, thereby iopening the valve 85 to supply an increasing amount of air pressure to the bellows 83 and to the capsular diaphragm 51. .Thebellows 83 thereupon expands and tends to move the baflle 11 slightly toward the nozzle 18, thereby modifying the original movement of this baflie due to the action of the Bourdon spring 65. However, the total movement of the baflie and therefore the pressure change in the control conduit 89 is proportional to the temperature change at the bulb 61, the magnitude of the baflle movement depending upon the position of Y the adjustable clamp 8|. and upon the position of the nozzle ,18. 5

The increase in pressure in the conduit 89 gradually expands the capsular diaphragm 51 so that the free end of the baffle, if not otherwise actuated, would tend to rise. However,

, simultaneously with the expansion of the capsular diaphragm 51, the main lever 22, which is still pulled downward at this time by the spring levers 24 and 25, continues to move downward slowly under the restraining action of the damp-' ing system, with the result that the tension in the spring levers- 24 and 25 is gradually reduced. The resultant of these two mentioned actions which is usually small, is such that the free end of the baflle moves more slowly. While the tem perature is being restored to the control point, the tension in the spring levers 24 and 25 has 'thus been gradually reduced as indicated, andv has also been partially balanced by the resilience of the bellows 38 and 39 so that the end of. the main lever 22 descends more and more slowly. Finally, when the temperature reaches its predetermined value, the capsular diaphragm 51 has expanded to its normal position and the spring force of the retard bellows 38 and 39 balances the force of the spring levers 24 and 25 of equilibrium with the desired temperature: existing about the bulb 61. However, the end of the baiiie 5|, the main lever 22, the nozzle 51 and the valve stem extension l4 have assumed new-positions corresponding tothe new load.

At this time the pressure indicated on the gauges Gland 9| will be normal. Since these gauges indicate normal pressure readings, only when the control point temperature is being maintained they provide an accurate indication and the regulating system is again in condition of any deviation from the predetermined tem- .7

perature. In accordance with the present invention the gauge 9i may be located at a point remote to the recording regulator, for example,

at a remote supervisory station to give an immediate indication of any deviation from the required controlled condition.

The cycle of operation of. the dual response regulating systemdepends a great deal .on the character of the disturbance that causes its action and also uponthe character of the regu- The method of operation as perature disturbance and the apparatus is of the simplestkind, in order to simplify the descrip-' tion of the operation of the system. In this simplest cycle of operation it is assumed (first) that a steady temperature condition exists which is interrupted by an abrupt load increase. to a new constant value with steady conditions prevailing, (second) the character ofthe-apparatus is such that the full eflect of lthe load change is I completed in a short time such as thirty seconds,

(third) that there is very little delay in the response of the thermo-responsive element and the initial control action is' such that the first response is completed in a short time such as forty-five seconds" after the disturbance started and the apparatus is under control so that if there'were no second response the condition of the regulating system would be that of the final equilibrium. In this connection it should be noted that the second response has actually started so that, strictly speaking, the equilibrium condition of a single response regulating systemis not. actually reached, (fourth) that the unit sensitivity of the recording regulator is low enough to avoid any tendency to hunt where unit sensitivity is defined as the bulb temperature change necessary to cause the valve disc 6 to operate from its full open to its full closed position, (fifth) that the second response is completed in ten or fifteen minutes after the start of the original disturbance.

Under these assumed conditions the cycle or sequence of operations is as above described. For controlled apparatus of different character and for other adjustments of the regulating system, the actual valve movement during the latter part of the correcting period may be in the same direction as the. initial movement, in the reverse direction or there may be practically no movement at all.

Operation of system when load decreases In Fig. 6 the regulating system is shown with the several parts thereof in the relative position which they would assume when the load decreases with-the resultant decrease in the temperature of the medium. The operations of the system under decreased load will repe at those described in connection with Fig-5 whreinthe load increased, except that in this instance the operations of the several parts will be in the opposite sense from those therein described.

2 Precision valve action Any movement or lack of movement of the valve stem extension M which may be caused by any means other than the movementflof baffle 5|, such as fiuctuationsin pressure in the air supply, fluctuations in the pressure of the controlled medium-passing through valve 5, and friction of the stufling box la, will be immediately compensated for by the action of the dual response unit.

During normal throttling operation, the approximate clearance between the bafiie 5| and -the nozzle 21 is about .020".

Consequently any movement of the 'push rod 25 in response to a movement of the valve stem and-its extension will change this clearance and a change of only .003" or less, is needed to cause the entire pressure of the air supplyisource or the full action of spring H, as the case may be, .to be applied to the motor l2 of the motor valve 5, thereby adjusting it to the required position to effect .the desired regulation.

, If, however, the source of air pressure fiuctuates, the motor valve will still be correctly positioned to effect the desired regulation. In the event that there is an increase in the air pressure at the nozzle 21,;this will reduce the flow of pressure fluid through the valve 59 causing an upward movement of the valve stem extension ll with a .consequent downward movement of the push rod 29 which carries with it the, nozzle 21. This increases the distance between the baifle 5| and the sure at the nozzle 21, the reverse of the operations just described will be efiective to restore the motor valve 5 to its proper position.

Fluctuations in the pressure of the heating or regulating medium passing through the single seated motor valve 5 have a noticeable action that tends to cause the disc 5 to move, with a conse-' quent change in the flow of the medium through the valve. The movement of this valve disc moves the valve stem extension and consequently the push rod, tovary the position of the nozzle 21 with respect to bafile 5|. This movement will result in a change in pressure in the bellows 60 which actuates the valve 59 to effect a change in the flow-of air to the motor valve 5 so that its disc 6 will remain'essentially unchanged in position.

If there is such friction in the stumng box la that the valve stem extension 14 does not immediately position itself in accordance with the variation in the space between the baflie and the or valve spring H, as the case may be, will besup- .plied to the motor of the valve 5 to overcome this friction.

In the event that the rubber diaphragm H becomes hardened so that the operation of the'valve is retarded, the operation of the system is the nozzle, then the full pressure ofthe air supply same as in the case of stuffing box friction and It should be emphasized that an important feature of the present invention is the combination of dual response and precision valve action in a regulating system, since this combination insures the accurate adjustment of the regulating valve to the precise position determined by the exact control of the dual response unit. If dualresponse is used without precision valve action, the friction of the normal'stufling box of the valve would disturb the control efiected, due to the low unit sensitivity which dual response applications require. However,.with the present combination of dual response regulation and precision valve action, a force as much as five hundred times greater than that possible in conventional valves, is applied to the valve to overcome friction and other conditions preventing accurate valve action.

Adjustment of the response unit For all load changes, the dual response regulat 'i'ng system may be adjusted to give complete compensation, that is, restore the controlled temperature to the predetermined value, or it may be adjusted for "over-compensation, that is, to

return the controlled temperature above thepredetermined value in case the initial deviation was downward. This systemmay also be adjusted for under-compensation, that is, to return the controlled temperature below the predetermined value in case the initial deviation is downward. These three different results may be obtained by the various adjustments of the pivot 52 with respect to the damping assembly frame 43. Complete compensation is effected by adjusting the,

- may be.

pivot 52 and the damping assembly frame E3 to the same corresponding position such as marked E on the main lever 22 and E on the bar 53. V A deviation to the right or to the left from the lastmentioned setting will result in over-compensationor under-compensation of the system, as the case It should be mentioned that the purpose of adjusting the clamping assembly 43 and the adjustable pivot 52 to: corresponding graduations-such as EE on bar 53 and main lever 22, is so that the movement of the bailie due to the movement of thepivot 50 is independent of the position of the damping assembly including the bellows 38 and 39 which, in part, controls the movement'of the main lever 22.

It has been' mentioned that the pivot 52 may; be placed under the pivot 50.- This adjustment constitutes one of the important design features of the device, and is provided to permit the second response to be eliminated entirely. Elimination of this second response during the testing of the .equipment greatly facilitates the correction of operating difficulties. If hunting" exists in the regulating system it may be due to too rapid a second response, or it may be due to too high a sensitivity. Both of these variables are possible" sources of hunting, and if it is not possible to eliminate one. of these variables during the adjustment of the regulating system, the correction of the hunting can only be effected by a cut and try method of varying first one variable and then the other. However, in the present design, by permitting temporary elimination of the second response it is possible without difliculty to determine which adjustment or variable iscausing the hunting, so that it can be quickly corrected.

While the present invention has been disclosed in connection with a temperature regulating system, it is equally applicable to all controlled iconditions'such as the controlof pressure, the flo w'of fluid or the level 1 We. claim:

1. In an arrangement of the class described, a valve, primary responsive means of low-sensitivity and secondary responsive means of higher sensi- I tivity including at least a part of said primary means, both means being responsive to a condi-' tion to be regulated to indicate a required open 9 ing of said valvcaand mechanism for actuating said valve until said indicated opening thereofv is established.

2. In an arrangement of the class described, a valve, a prompt-acting primary responsive means of low sensitivity and a'sluggish secondary mof a liquid.

spon'sive means of higher sensitivity including at least a part of said primary -means, both meansbeing responsive to a condition to be regulated to indicate a required opening oisaid valve, and mechanism for actuating said valve until said required opening thereof is exactly established.

3. In an arrangement oi the class described, a

- valve provided with a valve motor, a regulating device responsive to conditions to be regulatedfor controlling the operation of said valve motor to 7 govern said valve, mechanism including hermetically sealed damping means provided with a substantially inelastic medium for modifying the control efiected by said regulating device in accordance with said conditions to be regulated,

.and a resilient connection actuated from said motor for operating said mechanism. 5, In an arrangement of the class described, a

regulating fluid conduit, means responsive to a condition to be controlled for acting upon the conduit to efiect a substantial immediate primary variation in the flow of regulating fluid there- -through, and other means including at least a part of said first means and responsive to said condition for eflec'ting a secondary slow variation in the fluid flowing through said conduit, said other means including a-fluid damping system completely sealed from the atmosphere.

6. In an arrangement of the class described, a valve provided with a valve motor, a regulating device responsive to conditions to be regulated forcontrollingthe operation of said valve motor, and

means actuated by said valve motor for modifying .the control effected by said regulating device,-said means including a hermetically sealed fluid damping system.

. '7. In a system of theclass described, a valve provided with a valve motor, a regulating device a part of said primary meansand responsive to said condition for effecting a secondary slow variation in the fluid flowing through said conduit,

- said secondary means including a damping sys- .tem containing a liquid completely sealed from the atmosphere, and means for maintaining the liquid pressure in said damping system within'a predetermined range irrespective of temperature changes.

9. In an arrangement of the class described, a regulating fluid conduit, primary means responsive to a condition-to be controlled for actingupon the conduit to effect a substantial immediate primary variation in the flow of regulating fluid therethroug'h, and. pressure-operated sec ondary means including at least a part of said primary means and responsive to said condition for eflecting a secondary slow variation in the ,fluid flowing through said conduit, said secondary means being selectively adjustable at will to reduce said secondary slow variation to a negligible amount. v

l0. In an arrangement of the class described, a regulating fluid conduit, primary means responsive to a condition to be controlled for acting upon the conduit to effect a substantial immediate primary variation in the flow of regulating'fluid meansincluding at least a part of said primary tecting a secondary slow variation'in the fluid jflowing through said conduit, said secondary means being selectively adjustable at will. to;- adjust the magnitude of said secondary slow va:

therethrough, and pressure-operated secondary means and responsive to said condition for efsaid primary variation.

11. In an arrangement of the class described, a-

. regulating fluid conduit, primary means responsive to a condition to be controlled for actingupon the conduit to effect a substantial immediate primary variation in the flow of regulating fluid therethrough, and pressure-operated secondary means including at least a part of said primary means and responsive to said condition for efiecting a secondary slow variation in the fluid flowing through said conduit, said secondary means being selectively adjustable at will'to adjust the magnitude of said secondary slow variation without disturbing the magnitude of said primary variation and without disturbing the rate of said secondary slo'w variation.

12. In an arrangement of the class described,

a controlling element, a regulating device responsive to conditions to be regulated for govern ing the operation of said controlling element, mechanism including timing means for modifying the control efi'ected by said regulating device in accordance with said condition to be regulated, said timing device being slidably adjustable to vary its period of operation.

13. In apparatus of the class described, a

movable lever,-an element actuated by said lever, a second element in operative relation to said first element; a valve provided with a valve motor controlled by the relative movement of said elements, a member connected to said second element and resiliently connected to said lever, said member being responsive-to the operation of said valve motor, a. device responsive to conditions to be regulated for separately controlling the operation of said first element, and means for damping the movement of said lever. I

14. In apparatus of the class described, a pivoted lever, an element actuated by said lever, a second element in operative relation .to said first element, a valve provided with a valve motor, said motor being controlled by the relative movement of said elements a member connected to said secondary element and resiliently connected to said lever, said member being responsive to the operation of said valve motor, means for damping the movement of said lever, said means being slidable along said lever with respect to said pivot to adjust the rate of damping, and a device responsive to conditions to'be regulated for separately controlling the operation of said first element. x a 1 15. In a system of the class described, a'motor valve provided with a valve stem and. functioning to control the flow of a regulating. medium, a regulating unit including two elements, both of which cooperate by a' relative movement therebetween to control the 'flowof anactuating fluid.

to the motor of said valve for effectinga' primary operation thereof, a device responsive to condi- 'tions to be regulated for controlling the movement of one of said elements, and means actuated proportionally to the movement of the valve stem throughout a period of any predetermined duration for causing a relative movement of said elements to modify the control ofsaid device.

v 16. In a system of the':class described, amotor valve provided with a valve stem and functioning to control the flow of a regulating medium, a

regulating unit including a baflie and a nozz'e which control the flow of an actuating medium 10 the motor of said valve, a device responsive to conditions to be regulated for controlling the movement of said baflle, meansactuated by the valve stem for moving said baflle and said nozzle,

and means for delaying the last-mentioned movement of said baflie.

17. In a system of the class described, a motor valve provided with a valve stem and function- 7 ing to control the flow of a regulating medium, a

regulating unit including a baflle and a nozzle .which control the flow of an actuating medium to the motor of said valve, a device responsive to conditions to be regulated for controlling the movement of said baflie, means actuated by the valve stem for causing movement of said nozzle and an additional movement of said baflle, and

, actuated by said valve motor for moving said elements, means for retarding the movement of one of said elements, and means responsive to changes in a condition to be regulated'for moving said last-mentioned element independently of said retarding means.

v 19. In apparatus of the class described, a movable lever,'damping means for retarding the movement of said lever, a pivoted baflle actuated by said lever, an adjustable fulcrum to modify the action of said bafile, a nozzle in operative relation to said bafile, a valve provided with a valve stem and controlled by the relative move nient of said bafile and said nozzle, a member connected to said nozzle and resiliently connected to said lever for actuating the same, said member being responsive to the movement of said valvestem, said fulcrum being adjustable with respect to said*.pivot to render said baflle independent of actuation by said lever, and a device responsive to conditions to be regulated for controlling the operation of said baflie.

20. In apparatus of the class described, a pivoted lever, a damping assembly for retarding the movement of said lever, said damping assembly being movable .with respect to the pivot of said leverfor varying the damping effect of valve provided with a valve stem and functioning to control the flow of a regulating medium, a regulating unit including a baflie and a nozzle which cooperate to control the flow of pressure fluid for operating said valve, a device responsive to conditions to be regulated for controlling the relation between said ballie and said nozzle, said baflie and said nozzle both being further actuated by said valve stem.

-22. In a system of the class described, a motor;

valve provided with a valve stem and functioning to control the flow of a regulating medium, a, regunit including a baflle element and a nozzle element both of which cooperate to control the flow' of an actuating fluid' tothe motor of said" ments. 23. In apparatus of the class described, a movable lever, means for damping the movement oi said lever, an element actuated by said lever, an

,-,adiustable pivot for/said'element, alseco'ndelement in operative relation to said'flrst element,-

mechanism controlled by the relative movement ,of said elements, a member connectedto said ation of said mechanism, and-means responsive, to a condition to be regulated, for operatingsa'id i;

first element. g

24. In a control arrangement, a nozzle and a baiiie in cooperative arrangement, a] source of pressure fluid, a valve and operating means therefor, a fluid connection from said source to said nozzle and to said means, mechanism responsive to a conditionto be regulated for changing the relation between said baflie and said nozzle to control the pressure in said connection and therefore actuate said means, a pressure-fluid responsive unit serving when operated to modify the changed relation between said baflle and said nozzle, a pressure-fluid connection controlled by said valve andleading from said source to said unit, and means for adjustably restraining the action of said unit. c

25. In a control arrangement, a nozzle and a baflle in cooperative relation, a support on which said nozzle is vslidably mounted for adjustment with respect to said baflle, a source of pressure fluid; a valve and operating means therefor, a fluid connection from said source to said nozzle and -to '-said means, mechanism responsiveto a condition to be controlled for moving said ,baflie to controlthepressure in said connection and therefore the pressure in said means, a pressurefluid responsive unit engaging said baflie and serving when operated Ito modify the original movement or said bailie, a pressure-fluid connec-' tion controlled by said valve and leading from said source to said unit,- and means for adjustably controlling 'the magnitude of action. A

26. In a control arrangement, a nozzle and piv-. oted baille in cooperative relation. a source of pressure fluid, a valve and operating means thereior,-a fluid connection from said source to said, nozzle and to said means, mechanism responsive to a condition to be controlled iormoving said baiiie to control the pressure in said connection and therefore the pressure in said means, a pressure fluid responsive unit engaging said baflie and serving when operated to modify the original movement or said baiiie, a pressure-fluid connection controlled by said valve and leading from said source to said unit, a spring opposing said unit, and means for varying the flexibility of said spr ng.

' 27.- In an arrangement of the-class described,-'a

valve, primary responsive means oi'low sensitivity and secondary; responsive means'vot higher sensitivity including'at least a partoi' saidprimary means, both means being responsive to a deviation irom a normalcondition to be maintained, to progressively indicate the required opening or said "valve tending to correct the dcyiation from said condition, and tor actuating said valve until said indicated 'openingitherooilis ea- 28. m an arrangement or am described, a

of low sensitivity slugaish respon- I 2,086,966 stem for moving said baflle and said nozzle elea part of said primary means, both means being responsiveto a deviation from' a normal condition, to be maintained to progressively indicate a required opening of said valve tending to correct the deviation from said condition, and mechanism for actuating said valve until said required opening thereof is exactly established.

- 29. In an arrangement of the class described, a

regulating valve having' an actuating motor, a

fluid conduit leading to said motor, primary means responsive to a condition to be controlled for acting uponthe conduit to-eiiect a substantial immediate primary variation in the flow of regulating fluid therethrough, and secondary means including at least apart of said primary means and responsive to said condition for effecting a secondary slow variation in the fluid flowing through said condiut,said primary means and said secondary means operating jointly to progressivelyindicate a changing required, opening of said valve until an ultimate exact required opening' thereof' is indicated, said valve motor cooperating with said primary means and said secondary means to adjust'said valve until the? ultimate indicated valve opening is attained.-

'30. In an arrangement of the class described, a

regulating valve having an actuating motor, a

fluid conduit leading to said motor, primary means responsive 'to-a condition to be controlled for acting upon the conduit to effect a substantiaiimmediate primary variation in the flow of regulating fluid therethrough, and secondary means acsecondary slow variation in the fluid. flowing through said conduit, said primary means and said secondary means operating jointly to continuously indicate a changing-required opening of said valve until an ultimate exact required opening thereof is indicated, said secondary means cooperating with said valve motor to apply pressure fluid thereto through said conduit until the ultimate indicated opening of said valve-is eflect- '31. In an arrangement of the class described, a regulating fluid conduit, means responsive to acondition to be controlld for acting upon the conduit to efiect a substantial immediate primary varia-' tion in the flow of regulating fluid therethrough,

and 'othermeans including at least a part of. said first means and responsive to said condition for eifecting a secondary slow. variation in the fluid flowing'thr'ough said conduit, said other means .including a liquid-filled damping system completely sealed from the atmosphere.

32. In a system of the class described, a regulating fluid conduit, primary means responsive to a conditi n to be controlled for acting upon the conduit to effect a substantial immediate primary variation in the flow ofregulating fluid therethrough, secondary means including at least a part or said primary means and responsive to said condition for efiecting a secondary slow variation in the fluid flowing through said conduit, said secondary means including a damping system containing a liquid completely sealed from the atmosphere, said damping system being arranged to maintain the liquid pressure therein within a predetermined range irrespective of temperature changes;

- KARL H. HUBBARD.

" RALPH E. CLARRIDGE. 

